Limited-transpiration trait in response to high vapor... - Citation Index

2023 article

Limited-transpiration trait in response to high vapor pressure deficit from wild to cultivated species: study of the Lens genus

Rouichi, S., Idrissi, O., Sohail, Q., Marrou, H., Sinclair, T. R., Hejjaoui, K., … Ghanem, M. E. (2023, July 9). JOURNAL OF EXPERIMENTAL BOTANY.

By: S. Rouichi^*, O. Idrissi, Q. Sohail^*, H. Marrou^*, T. Sinclairⁿ, K. Hejjaoui ^*, M. Amri ^*, M. Ghanem ^*

author keywords: Drought; interspecific crosses; lentil; transpiration limitation; vapor pressure deficit (VPD); wild relatives

TL;DR: Results from field experiments suggest that the TRlim trait positively affected yield and yield-related parameters during the years with late-season water stress and the selection of TRlim genotypes for high VPD environments could improve lentil productivity in drought-prone areas. (via Semantic Scholar)

10.1093/jxb/erad264

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UN Sustainable Development Goal Categories

2. Zero Hunger (Web of Science)

13. Climate Action (Web of Science)

Source: Web Of Science

Added: August 7, 2023